Apparatus for conveying and treating articles



J. W. LACY ETAL APPARATUS FOR CONVEYING AND TREATING ARTICLES 5 Sheets-Sheet 1 `lune 14, 1966 Original Filed June 8, 1962 ATTORNEY June 14, 1956 J. w. LACY ETAL APPARATUS FOR CONVEYING AND TREATING ARTICLES 5 Sheets-Sheet 2 Original Filed June 8, 1962 INVENTORS (/xo/mson W Lac N .QQ

` Y *Y /r/es K. Brown, Jn

ATTORNEY June 14, 1966 J. w. LACY ETAL APPARATUS FOR CONVEYING AND TREATING ARTICLES 5 Sheets-Sheet 3 Original Filed June 8, 1962 R a o v. m c n w m w r m W. B m K s M e h In o u J h C vm A@ CEC 2S 2375 wm 1 w m. w.. O om om w w wm 8 J Q @Q x mm Q |lllnnh e d J om N9 o@ N9 O O @m z s \\Nm i V om mv BY jyb'mm ATTORNEY `lune I4, 1966 J. w. LACY ETAL APPARATUS FOR CONVEYING AND TREATING ARTICLES 5 Sheets-Sheet 4 Original Filed June 8, 1962 nvvENroRs Johnson W. Looy ATTORNEY k @nor/os K Brown, Jr:

BY J- :f7/m0?? June 14, 1966 J. w. LACY ETAL 3,255,897

APPARATUS FOR CONVEYING AND TREATING ARTICLES Driginal Filed June 8. 1962 5 Sheets-Sheet 5 (n2 mREcTLY oP'PoslT 0 v 30 INVENT ORS Johnson W Lacy Char/es K. Brow/7, Jl:

ATTORNEY United States Patent() Original application June 8, 1962, Ser. No. 205,152. l

Divided and this application Mar. 15, 1965, Ser. No. 439,711

3 Claims. (Cl. 214-18) This application is a division of our prior copending application Serial No. 205,152, filed June 8, 1962, which application is itself a continuation-in-part of application Serial No. 835,614, tiled August 24, 1959, both of which applications are now abandoned. l

This invention relates to apparatus for conveying and heating articles, and while it is applicable in general to the handling of material and articles of various kinds, it is particularly useful in the handling and conveying of concrete blocks, and the invention will be described in connection with such blocks, by Way of example.

In the art of producing concrete blocks and the'like, it is necessary that great care be exercised in handling the product in both the green and cured states. The conventional method and system for accelerating the curing of concrete articles is by means of steam chambers into which the concrete articles areloaded. Heretofore, the

usual method of handling the concrete articles from the molding machine to and from the steam chambers has been by means of lift trucks. It has been found, however, that, because of breakage or attrition of the concrete articles, the Hoor of the plant soon becomes covered with sand, gravel, concrete fragments and dust, and this ab-rasive material finds its way into the Wheel bearings of the trucks, with the result that such bearings are subjected to excessive Wear, thus entailing a high cost of maintenance.

It is an important object of the present invention to eliminate the use of such trucks, and to this end the invention contemplates the provision of elevated monorail tramlines throughout the plant, from which tramlines racks carrying the concrete articles are suspended, and along which they travel.

Another object of the invention is to provide a cooperative assembly for charging the racks of green concrete articles into the steam chambers or autoclaves, and for removing the racks of cured articles therefrom, in an eicient and labor-saving manner.

Other objects of this invention are to provide an automatic block racking system which will materially reduce the cost of producing concrete blocks and which will modernize the method and apparatus for producing, curing, and handling concrete bolcks. v

These and other objects and advantages of this inven tion will become more readily apparent and understood from the following accompanying specification and drawings, in which:

FIG. 1 is a plan view partially in cross section, of a mechanized concrete block manufacturing system incorporating features of this invention;

FIG. 2 is an end view taken in the direction of the arrows 2 2 of FIG. 1 at the face of the autoclaves;

FIG. 3 is an enlarged cross section taken in the direction of the arrows 3-3 of FIG. l illustrating dip stations and a short transfer crane;

FIG. 4 is an enlarged cross section taken in the direction of the arrows 4--4 of FIG. l illustrating a charging conveyor lfor a hinged autoclave, together with a long transfer crane;

FIG. 5 is an enlarged cross section taken in the direc- 7 3,255,897 Patented June 14, 1966 ICC FIG. 6 is an enlarged end view, partially in section, of a portion of a rail supported rack and a chain drive sprocket therefor.

Referring now to FIGS. l and 2 of the drawings, block curing means, such for example, as a plurality of parallel, cylindrical autoclaves 31, 32 and 33, are diagrammatically shown. These autoclaves 31, 32 and 33, are arranged to be supplied with steam under pressure from a steam generator 30. Each autoclave 31, 32 and 33 is provided lengthwise With a section of the overhead monorail 34, of the cross-sectional shape shown in FIG. 6i. An unloading tramline 36 and a pre-curing tramline 38, both constructed of an elevated monorail 34, as shown best in FIGS. l, 2 and 5, are provided-and are shown as disposed in parallel relationship with autoclaves 31, 32 and 33 and with each other.

A4 short transfer crane 40 bridges one end of the pair of tramlines 36 and 38, While a long transfer crane 42 is placed adjacent their opposite ends at right angles thereto as shown in FIGS. 1 and 2.

The short crane 40 comprises a pair of monorail sections 40a and 401:, along which run a` pair of trolleys 40C, carrying a monorail section 104, which is capable of being moved into registry with either-of the tramlines 36 or 38. The long transfer crane `412 comprises a pair of elevated monorails 42a and 42b, along which run trolleys 42e carrying a bridge monorail 45. The monorails 42a and 4211 extend across the ends of the tramlines 36 and 38, so that the bridge 45 may register with either. These monorails also extend `across the ends of charging monorails 44 disposed in front of each autoclave.

The monorails 44 are provided with hinged span tracks 46 joining each autoclave monorail 34, as shown in FIGS. 1 and 4. These span tracks 46 may independently be raised clear of the autoclaves 31, 32 or 33 as by means of power cylinders 46a to permit Vtheir doors 1i16 to be closed, as best illustrated in FIGS. 1 and 4.

The tramline 36 is provided with a rack unloading dip station 48, and a rack loading dip station 50, with the stations 48 and y50 being provided with hoist rail sections 90` and 94, respectively, as shown in FIGS. 1 and 3. A motor driven endless roller link drive chain 60' is provided for that end of the tramline 36 adjacent the dip stations 48 and 50. In addition, the tramline 36 has three serially arranged motor driven single endless chain drives 54, 56 and 58, as shown best in FIGS. l and 3. The tramline 38 is also provided with single endless motor driven chain `drives 62, 64, 66 and 68, as shown in FIGS. 1 and 5. The long transfer crane 42 is provided with an endless reversible double chain drive 72 and 72a,v as illustrated in FIGS. 1 and 4.

Each hinged span track 46, as shown in FIG. l, is prov vided with an endless reversible single chain drive 74 but which may be operated double chain in conjunction with an endless pull chain 76 (see FIG. 4). Chain 76 extends from within each of the autoclaves 3 1, 32 and 33 and is used only during unloading periods thereof as will be related subsequently.

As shown best in FIGS. 2, 3 and 6, a plurality of racks 80 are aranged to depend from the monorails and travel along the same by means of trolley wheels 82. Racks 80 are of inverted U-shape. Each rack 80 is provided With a plurality of support angles l84 at each end to loosely receive the ends of pallets 86 for transporting the concrete blocks thereon. A further function of the inverted U-shaped racks 80 is to allow the racks 80 to lstraddle a pallet unloading conveyor 88 and a loading conveyor 89 as shown in FIGS. 1 and 3 and as will be described subsequently.

A section 9i) of the tramline 36 isV arranged to be raised or lowered by a hoist 92 in unloading dip station 48, and -a simi-lar section 94 may be raised or lowered by .a hoist 96 in loading dip station 50, as shown in FIGS. 2 and 3. A loading machine 98 is located directly under hoist 96 and functions to guide and level one of the racks 80 as it is positioned over the same. An unloading machine 100 is likewise provided under hoist 92, and it guides and levels each rack 80 over the same,

The conveyor at the unloading station 48 is designated generally by the reference character r88 in FIGS. 1 and 3. The conveyor from the block machine to loading station 50 is designated generally by the reference character 87 in FIG. 1. These conveyors 87 and 88 form no part of the present invention, and hence will not be described here in detail. For a full disclosure of the details, reference may be had to copending application Serial No. 439,884, filed March 15, 1965, as a continuation of earlier application Serial No. 205,152. v

Just beyond this conveyor 87 is a roller conveyor, designated in its entirety by the reference character 89. As shown in FIG. 3, this conveyor preferably comprises two spaced sets of xed rollers 89a and 89h, mounted on angle .bars 89C and 89d.

The unloading machine 100 is provided with two opposing pairs of notched pawls 99, as shown best in FIG. 3, which are pneumatically operated in synchronism by means of cams 99a, actuated by air cylinders 99h so as to extend inwardly and receive one opposing pair of support angles 84 of a lowering rack 80 at a time. The loading machine 98, on the other hand, is provided with two opposing pairs of notched arms 101, pivoted at 10111, also pneumatically operated as by means of an air cylinder 101b in extending or retracting synchronism, to cooperate with a pair of support angles 84 of a raising rack 80 in similar rack leveling action to that of pawls 99.

The roller link chain drive 60, Vas shown in FIGS. 1 and 3, propels the racks 80 by means of a series of dogs 102. These dogs 102 are spaced at intervals corresponding to the locations of the centers of track sections 90 and 94, and of a track 104 which is a part of the short transfer crane 40. A pair of clips 106 and 107, as shown lbest in FIGS. 1 and 6, is provided at one side of the top of each rack 80. The dogs 102 impinge against the upstream clip 107.

In the case of the remaining drives, namely, chain drives 54, 56, 58, 62, 64, 66, 68, 72, 74 and the pull chain 76, as shown in FIGS. 1, 3, 4 and 5, all are so-called log chains made up of straight, flat links lying alternately in planes at right angles to each other. A Y- shaped notch 108 is provided in each clip 106 and 107, as shown best in FIG. 6, to receive the typical chain links designated 110, forming chains such as 74, and driven by a sprocket such as 115. Another pair of similar clips 112 and 113 are mounted at the other side on the top of each rack 80. It should be noted that, as shown in FIG. 6, clips 106 and 107 are tilted toward the viewer while clips 112 and 113 are tilted away therefrom. Also as shown in FIG. 6, the upper outer edges of clips such as 106 and 113 are transversely sloping, for a purpose described later. This construction causes the chain links 110 to engage the Y-shaped notches as at A and propel the rack, when the chain has movement in one direction relative to the rack, and causes the chain links to ride up out of the notches as at B and become disengaged therefrom when the relative movement between chain and rack is in the other direction. Thus, under some conditions, the chain may slide freely over the racks without propelling the same, or, if the racks tend to overrun the chain, they may coast along freely under it. The tilted feature of the clips 106, 107, 112 and 113 allows the rack receiving chain drive 62, of FIGS. 1 and 5, to engage each rack 80 after its lateral transfer by lthe short crane 40. As shown in FIGS. 4 and 5, the short crane 40 moves one rack 80 at a time. However, the

long crane 42 has a capacity of handling four or more racks at one time.

FIGS. 1 and 4 illustrate how the endless pull chain 76 runs over a pulley 76a at the rear end of an autoclave, and may be manually looped over a drive sprocket 114 on the autoclave charging conveyor 44 when an autoclave door 116 is opened. Also shown is the arrangement by which the hinged span track 46 may be raised as by means of a power cylinder 46a to clear ,the door 116 when it is closed.

Having described the mechanism of the invention, the function of the various drives and the steps of an operating cycle will now be discussed.

By suitably positioned switches, well known to those skilled in the art, the chain drive 72 and 72a of FIGS. l and 4 loads and unloads the racks 80 from the long crane 42 which is controlled automatically vby positioning of crane, or by manual control of the operator.

The chain drive 54 crowds the racks 80 of curved blocks into the area of the drive 56 of the tramline 36 and it runs continuously. The chain drive 56 crowds the racks 80 of curved blocks along the tramline 36 into the area of drive 58, and it runs continuously except when the area of the drive 58 is over-loaded with racks 80 and the line of racks 80 is pushed into a switch which opens the circuit as long as a rack 80 is against the switch.

The chain drive 58 crowds racks 80 into the pick-up area for the indexing roller chain drive 60, moving one rack 80 the length of a rack per rack loading cycle, and it is stopped by the presence of a rack 80 at the input to drive 60. The roller chain drive 60 is referred to as an indexing drive because it serves to move the racks through a denite predetermined distance in proper spaced relation.

The chain drive 60 indexes three racks 80 at a time through the dip stations 48 and 50. As a result, it moves a loaded rack 80 of cured blocks into position to be unloaded over the unloading conveyor 88 shown in FIGS. l and 3. The chain drive 60 also simultaneously moves an emptied rack 80 over the loading machine 98 to be loaded, and it moves a reloaded rack 80 of green blocks on to the short crane 40. The chain drive 60 is started by a series of four interlocked function-accomplished switches and it is stopped by the presence of a rack 80 at the short bridge crane 40.

'1`rhe short bridge crane 40 transports racks 80` of green blocks from the loading area to lthe tramlne 38, as shown best in FIGS. 1 and 2. Forward and reverse of the crane 40 are automatically controlled by `the entry and discharge of racks 80, respectively. The chain drive 62, of FIGS. 1 and 5, moves the loaded racks 80 otf of the laterally shifted short bridge crane 40 and down the tramline 38 to the area of the drive 64. Chain drive 62 is started by the shifted short bridge crane 40 and it is stopped after the rack 80 clears the crane 40.

The cha-in drive 64 is relatively short and it is used to crowd the racks 80 into an accumulated group on the tramline adjacent chain drive 66, large enough to lill an autoclave, such as 31, 32 and 33. The chain drive 6'4 runs continuously and it will stop only when the tramline adjacent the drive 66 is loaded with racks 80.

The chain drive 66 moves racks 80 into the area of the drive 68 as required and it runs continuously, except when stopped by the chain drive 68 becoming ful-l.

The chain drive 68 loads one crane load of fou-r (4) racks 80 in a relatively yquick time. This chain drive 68 is started automatically by the moving of crane 42 into position to receive the yracks or by manual control of the operator, and it is stopped when the crane 42 is loaded with racks 80. When the area of drive 68 is cleared of racks 80, the drive 66 is allowed to refill it for the next loading cycle of the long transfer crane 42.

When the rail 45 of crane 42 has moved into registry with the rail 44 of one of the autoclave loading conveyors,

the forward movement of the 4respective chain drive 72 and 74 loads each autoclave 31, 32 and 3-3 with racks 80 of uncured blocks, and clears the area in front of the autoclaves 31, 32 and 33 for reception of the fol-lowing or succeeding loads of racks 80 from the long transfer crane 42. Chain drive 74 runs continuously during the loading cycle of each autoclave 31, 32 and 33. Racks 80 are driven forward by the short chain of chain drive 74 on the right side of each autoclave 31, 32 or 33 into the autoclave. The short claim of the chain drive74 disengages from racks 80 'at the entrance to respective autoclaves 3X1, 32 and 33.

Racks 80 are crowded together as they are thus pushed onward into the autoclaves 31, 32 or 33.

By 'looping the endless pull chain 76 around the sprocket 11=4 and common drive shaft 44a (FIG. l), the cure-d racks 80 a-re withdrawn from autoclaves 31, 32 or 33 and are unloaded onto the long bridge or ltransfer crane 42 for transfer to the tramline 36 on `the Way to the unloading machine. The pull chain 76 and its drive are controlled by the position of the long transfer cra-ne 42 for transfer to the tramline 36 on the way to the unloading machine 88. rl'lhe pull chain 76 and its drive are controlled by the position of the long transfer crane 42 or by the operator thereof. lllhe long transfer crane 42 moves as required to unload or reload the autoclaves 31, 32 or 33, either manually or automatically.

There are two cycles within the overall operating cycle of the system, namely, the unloading and loading cycle of the autoclaves 31, 32 or 33, and the unloading and loading cycle of the racks 80. Starting with the three autoclaves 311, y32 and 33, full of racks 80` loaded with blocks being cured and with `pre-curing tramline 38 loaded with thirtysix (36) racks 80 `ready for curing, the steps in the autoclave unloading and loading cycle will now'be described in connection with FIGS. l to 6.

Tlhe autoclave 33, for example, is exhausted of` steam, and the door `1.16 thereof is opened. The hinged span track 46 is then lowered to align lwith the monorail 34 in the autoclave 33. The four-rack capacity long transfer crane 42 is 1then llined up with the autoclave 33. Then the chain dri-ve 72 on the crane and the fixed short chain drive 74 moves the group of four racks from the crane onto the iixed monorail section 44 (FIG. 4) and movable monorail section 46, and thence onto the monorail 34 extending along the inside of the autoclave. This is repeated until the autoclavey is full of racks. Then the movable section 46 is raised so as to clear the door 116, the door closed, and steam admitted for a sufficient time to cure the green blocks. Thereupon, the door is opened, and the section 46 lowered into alinement with the monorail 34. rllhe rack pull chain 76 is next manually placed over sprocket 1114, of FIGS. 1, 4 and 6, next to the long transfer crane 42. The operator then works t-he controls to pull thirty-six (36) racks 80 from the autoclave 33 to ward the long transfer crane 42. When three and one-'half (3l/2) racks 80 have been pulled onto the long transfer crane 42, the drive shaft 44a is automatically stopped by a properly located limit switch and the rack loading chain drive 72a then starts and finishes pulling the four (4) racks 80 onto the long transfer crane 42. This leaves a gap between the remaining thirty-two (32) racks 80 and the transfer crane.

The bridge monorail of the long transfer crane 42 is then moved into alignment With the unloading tram-line 36. After a safety interlocking of the long transfer crane 42, `the reversibile chain drive 72 is then energized, and the four (4) racks `8l) are moved off of the long transfer crane 42 and onto the tramline 36 adjacent the accumulating chain drive 54. rPhe accumulating chain drive 54 is automatically stopped when it has moved up four racks lengths of racks 80 `to make space for the next four (4) racks 80 to be brought from the autoclave 3-3 being unloaded.

The long transfer crane 42 then returns to the autoclave 33, and receives four (4) more racks 80 for disdrive 514. This cycle takes place nine (9) times until all thirty-six (36) racks 80 have been removed from the Iautoclave 33.

To complete the unloading and loading cycle of the autoclave 33, the long transfer crane 42 is then moved from registry with tramline 36 (at the completion of its ninth autoclave-to-trarnline cycle) to the pre-curing tramline 38 and is intenlocked there.

The section of the chain drive 68 of tramline 38 now operates to run four (4) racks 80 of green blocks onto the long transfer crane y42. This four-rack loading section of chain drive 68 is automatically refilled during the interval of movement of the long transfer crane 42, preparatory to the next loading operation. The long trans-fer crane 42 then moves to the empty autoclave, in this case autoclave 33, and ,quickly discharges its four racks 8)` onto the menor-ail 44 of the autoclave 3-3 and returns to the tramline 38 for four more racks 80. This cycle is repeated nine times until the autoclave 33 is reloaded with racks 80.

The actual loading of the autoclave 33 is done by the ten-foot' long autoclave charging chain drive 74. Each time four racks are discharged from the long transfer crane 42 onto the charging conveyor monorail 44 for autoclave 33, the drive chain 74 slowly and gently moves and pushes the accumulated racks 80 into the autoclave 33 and makes space for the next four racks 80 coming over on the long transfer crane 42 from the tramline 38.

The pull chain 76 for the autoclave 33 is unlooped from the drive sprocket 114 and allowed to drop down over the end rack 80. The hinged span track 46 is then raised up and the door 116 for the autoclave 33 is closed, thus completing the unloading and loading cycle thereof. The unloading and loading cycle of an autoclave such as 31, 32 or 33, usually takes between twenty (20) to thirty (30) minutes.

The loading and unloading machines 9S and 100, respectively, form no part of the present invention, and for this reason will not be described in detail. For a full disclosure of the details, reference may he had to the above-mentioned application Serial No. 439,884.

The `indexing roller link drive 60 moves the loaded rack 80 to the short transfer crane 40, and simultaneously, it moves an empty rack 80 into the loading dip station 50 and Ia full rack to the unloading station 48. The loaded rack 80 on the short crane 40 is immediately carried over to the tramline 38 where the short crane unloading chain drive 62 engages the Y-shaped notch 108 on top of the rack 80 and pulls it from the short crane '40 and slowly carries it along the pre-curing tramline 3S. The purpose of making the outer upper edge of clip 106 on a slope or incline, as shown in FIG. 6, is to enable the chain drive 62 (FIGS. l and 5) to ride up into the Y-shaped notch 108 as the crane, carrying the rack, moves laterally into alignment with tramline 38.

During the loading phase of the autoclave 33, of the over-all cycle of operations, four (4) racks at a time are drawn from the pre-curing tramline 38. This is accomplished by the operation of the long crane loading chain drive 68 at the time the long transfer crane 42 is aligned with the pre-curing line. This short four-rack capacity monorail section adjacent crane loading chain drive 68 is automatically refilled with racks 80 ready for the next loading operation by a forward movement of the precuring and Vstorage chain drives 64 and 66 sufficient to place four (4) racks at a time into the loading position preparatory to loading on the long transfer crane 42.

What we claim is:

1. Apparatus for handling and treating -articles comprising a horizontal, elongated treating chamber having at one end a movable door for closing the same, ya monorail supported inside of said chamber at the top thereof and extending throughout the length thereof, an elevated stationary monorail tramline disposed in front of said door in substantial alignment with the monorail inside said chamber, a movable monorail section disposed With one end adjacent the end of said stationary monorail tramline, means for moving said movable section so that its other end may either be brought closely into registry with the monorail inside said chamber to bridge the space between it and Isaid stationary.monorail ltramline, or shifted to a position out of the path of said movable door, so that said door may close, .and article carrying racks suspended from `and movable continuously along said stationary tramline, said movable monorail section and said inside monorail, to convey said articles into and out of said chamber.

2. Apparatus for handling and treating articles comprising a horizontal, elongated treating chamber having at one end a movable door for closing the same, a monorail supported inside of said treating chamber at the top thereof and extending throughout the length thereof, aV stationary monorail tramline disposed in front of said door in substantial alignment with the monorail inside said chamber, a movable monorail section disposed with one end adjacent the end of said stationary monorail tramline, mains for moving said movable section so that its other end may either be brought into registry with the monorail inside said chamber to bridge the space between it and said stationary monorail tramline, or shifted to a position out of the path of said movable door, so that said door may close, article conveying racks suspended from and movable continuously along said stationary tramline, said movable monorail section and said inside monorail to convey said articles into said chamber and an endless pull chain extending from the rear end of said chamber out through the front end thereof, when said door is open, to propel the racks along said inside monorail and movable section out of said chamber.

3. Apparatus for handling and treating articles comprising a horizontal, elongated treating chamber having at one end a movable door for closing the same, a monorail supported inside of said chamber at the top thereof and extending throughout the length thereof, a monorail tramline disposed in front of said door and in line with said inside monorail, article carrying racks suspended from and movable along said tramline and inside monorail, when said door is open, means for propelling racks along the same to charge the treating chamber with racks, an endless pull chain capable of occupying either a slack, inoperative position, inside said chamber, or an operative position extending along said inside monorail from the rear end of said chamber to and `out through the door at the front end thereof, when said door is open, and a power-driven sprocket outside of said chamber around which said pull chain may Vbe looped, when in operative position said pull chain engaging at least therearmost one of said racks to propel them along said inside monorail toward the front end of said chamber to discharge the same.

References Cited by the Examiner UNITED STATES PATENTS 235,628 12/1880 Garsed 104-172 1,454,675 5 1923 Gantvoort. 1,514,079 11/ 1924 Gehnrich 214-18 2,684,040 7/1954 Talboys 104-183 X 2,847,945 8/1958 Merritt 104--172 2,945,605 7/1960 Menough 214-18 GERALD M, FORLENZA, Primary Examiner.

HUGO O. SCHULZ, Examiner.

R. G. SHERIDAN, Assistant Examiner. 

1. APPARATUS FOR HANDLING AND TREATING ARTICLES COMPRISING A HORIZONTAL, ELONGATED TREATING CHAMBER HAVING AT ONE END A MOVABLE DOOR FOR CLOSING THE SAME, A MONORAIL SUPPORTED INSIDE OF SAID CHAMBER AT THE TOP THEROF AND EXTENDING THROUGHOUT THE LENGTH THEREOF, AN ELEVATED STATIONARY MONORIAL TRAMLINE DISPOSED IN FRONT OF SAID DOOR IN SUBSTANTIAL ALIGNMENT WITH THE MONORAIL INSIDE SAID CHAMBER, A MOVABLE MONORAIL SECTION DISPOSED WITH ONE END ADJACENT THE END OF SAID STATIONARY MONORAIL TRAMLINE, MEANS FOR MOVING SAID MOVABLE SECTION SO THAT ITS OTHER END MAY EITHER BE BROUGHT CLOSELY INTO REGISTRY WITH THE MONORAIL INSIDE SAID CHAMBER TO BRIDGE THE SPACE BETWEN IT AND SAID STATIONARY MONORAIL TRAMLINE, OR SHIFTED TO A POSITION OUT OF THE PATH OF SAID MOVABLE DOOR, SO THAT SAID DOOR MAY CLOSE, AND ARTICLE CARRYING RACKS SUSPENDED FROM AND MOVABLE CONTINUOUSLY ALONG SAID STATIONARY TRAMLINE, SAID MOVABLE MONORAIL SECTION AND SAID INSIDE MONORAIL, TO CONVEY SAID ARTICLES INTO AND OUT OF SAID CHAMBER. 